Argonaute2 expression is post-transcriptionally coupled to microRNA abundance.

Argonaute proteins are essential components of microRNA (miRNA)- and small interfering (siRNA)-mediated post-transcriptional gene-silencing pathways. In mammals, Argonaute2 (Ago2) is the catalytic center of the RNA-induced silencing complex (RISC) that recognizes and endonucleolytically cleaves messenger RNAs of complementary sequence. Although Ago2 is essential for RISC activity, the mechanisms regulating Argonaute protein expression are largely unknown. Here we report that Ago2 expression is dependent on miRNA abundance and that unloaded Ago2 protein is unstable. We observed a low level of Ago2 protein in Dicer- or DGCR8-deficent mouse embryonic stem cells (ESCs) that could be rescued by reintroduction of the respective cDNAs or by transfection of miRNAs or siRNAs. We found expression of Ago2 protein from a transgene to be similarly regulated, further supporting a post-transcriptional control mechanism. Inhibition of Hsc70/Hsp90 led to decreased Ago2 expression consistent with the reported role of this chaperone complex in RISC assembly. We furthermore found that the degradation of Ago2 was specifically blocked by inhibition of the lysosome, but not the proteasome. Our results illuminate a novel feedback mechanism that post-transcriptionally couples Ago2 protein levels with small RNA abundance with implications for RNA-interference (RNAi) and miRNA function.